Add to ORKGAmplitude scintillation data from GPS were analyzed. The objective is to estimate the impact of ionospheric scintillations at Satellite Based Augmentation Systems Ranging and Integrity Monitoring Station (SBAS RIMS) level and at GPS user level. For this purpose, a new approach to the problem was considered. Data were studied from the point of view of the impact of scintillations on the calculation of VTEC at pierce points and ionospheric grid points. An ionospheric grid of 5° 5° surface squares was assumed. From geometrical considerations and taking into account the basic principle to compute VTEC at grid points, with the data analyzed it is shown that scintillations very seldom affect the calculation of a grid point VTEC. Data from all t...
A comparison between two of the most used scintillation models and experimental data is presented. T...
Abstract: Equatorial scintillation is a phenomenon that occurs daily in the equatorial region after ...
Abstract: Problem Statement: Ionospheric scintillations, which cause significant effects on satelli...
Amplitude scintillation data from GPS were analyzed. The objective is to estimate the impact of iono...
[1] Ionospheric scintillations are one of the earliest known effects of space weather. Caused by ion...
Radio wave scintillations are rapid fluctuations in both amplitude and phase of signals propagating ...
Under normal circumstances, errors due to GPS signals travelling through the ionosphere can be model...
Ionospheric scintillations are fluctuations in the phase and amplitude of the signals from GNSS (Glo...
The ionosphere has always been a major limitation for GNSS positioning applications. Free electrons ...
Currently, there has been an increase in the usage of Global Navigation Satellite System (GNSS) purp...
Satellite-based communications, navigation systems and many scientific instruments rely on observati...
Ionospheric effects such as ionospheric storms, scintillation, or plasma bubbles are responsible of ...
Global Positioning System (GPS) receivers at low latitudes have a high probability of experiencing s...
As a frequently-occurred phenomenon in the high-latitude region, ionospheric scintillations affect t...
GPS has diverse application in current globalized world, its application has pervasive benefits not ...
A comparison between two of the most used scintillation models and experimental data is presented. T...
Abstract: Equatorial scintillation is a phenomenon that occurs daily in the equatorial region after ...
Abstract: Problem Statement: Ionospheric scintillations, which cause significant effects on satelli...
Amplitude scintillation data from GPS were analyzed. The objective is to estimate the impact of iono...
[1] Ionospheric scintillations are one of the earliest known effects of space weather. Caused by ion...
Radio wave scintillations are rapid fluctuations in both amplitude and phase of signals propagating ...
Under normal circumstances, errors due to GPS signals travelling through the ionosphere can be model...
Ionospheric scintillations are fluctuations in the phase and amplitude of the signals from GNSS (Glo...
The ionosphere has always been a major limitation for GNSS positioning applications. Free electrons ...
Currently, there has been an increase in the usage of Global Navigation Satellite System (GNSS) purp...
Satellite-based communications, navigation systems and many scientific instruments rely on observati...
Ionospheric effects such as ionospheric storms, scintillation, or plasma bubbles are responsible of ...
Global Positioning System (GPS) receivers at low latitudes have a high probability of experiencing s...
As a frequently-occurred phenomenon in the high-latitude region, ionospheric scintillations affect t...
GPS has diverse application in current globalized world, its application has pervasive benefits not ...
A comparison between two of the most used scintillation models and experimental data is presented. T...
Abstract: Equatorial scintillation is a phenomenon that occurs daily in the equatorial region after ...
Abstract: Problem Statement: Ionospheric scintillations, which cause significant effects on satelli...